Denitrification Potential of Paddy and Upland Soils Derived From the Same Parent Material Respond Differently to Long-Term Fertilization
文献类型: 外文期刊
作者: Wang, Haicui 1 ; Liu, Zhaodong 3 ; Ma, Lei 1 ; Li, Dandan 1 ; Liu, Kailou 4 ; Huang, Qinghai 4 ; Zhao, Bingzi 1 ; Zhang, 1 ;
作者机构: 1.Chinese Acad Sci, Inst Soil Sci, State Key Lab Soil & Sustainable Agr, Nanjing, Peoples R China
2.Univ Chinese Acad Sci, Beijing, Peoples R China
3.Nanjing Univ, Sch Environm, State Key Lab Pollut Control & Resource Reuse, Nanjing, Peoples R China
4.Natl Engn & Technol Res Ctr Red Soil Improvement, Jiangxi Inst Red Soil, Nanchang, Jiangxi, Peoples R China
关键词: soil denitrification; land use; long-term fertilization; functional genes; nirS-denitrifying bacteria
期刊名称:FRONTIERS IN ENVIRONMENTAL SCIENCE ( 影响因子:4.581; 五年影响因子:5.039 )
ISSN:
年卷期: 2020 年 8 卷
页码:
收录情况: SCI
摘要: The effects of land use and fertilization regimes on soil denitrification potential (SDP) are often investigated, but less is known about the responses of SDP to different types of land use with different fertilization regimes in soils derived from the same parent material. We conducted a study using soil samples from 2 long-term (over 30 years) fertilization experiments to determine the difference in SDP between paddy soil and upland soil derived from the same quaternary red clay parent material. The results showed that the SDP in paddy soil was 6.82 times higher than the upland soil, which was due to the higher abundances ofnarG,nirS, andnirKgenes andnirS-denitrifying bacteria (Bradyrhizobium,Cupriavidus, andHerbaspirillum) in paddy soil. Inorganic fertilization regimes did not significantly affect the SDP of upland soil over the control group, whereas SDP in the NPK and 2NPK treatments in paddy soil were reduced relative the control group by 26.48% and 75.65%, respectively. Compared with the control, the NPKOM treatment consistently yielded the highest SDP in both soils, with 2.47 times and 2.86 times higher for paddy soil and upland soil, respectively. The SDP of paddy soil was significantly correlated withnarGandnirSgenes mainly regulated by amorphous aluminum oxide, whereas the treatment effect on SDP for upland soil largely depended on differences innirS-denitrifying bacteria at the genus level (Herbaspirillum,Sulfuritalea, andCupriavidus) and species level, which were mainly controlled by soil pH. Partial least squares path models further demonstrated that the direct effects of functional genes on SDP were greatest for paddy soil, whereasnirS-denitrifying bacterial communities played a larger role in upland soil. The results presented herein represent a key step toward understanding the mechanisms that govern SDP under land use and long-term fertilization.
- 相关文献
作者其他论文 更多>>
-
Maize functional requirements drive the selection of rhizobacteria under long-term fertilization practices
作者:Zhang, Liyu;Yuan, Liang;Wen, Yanchen;Zhang, Meiling;Huang, Shuyu;Wang, Shiyu;Zhao, Yuanzheng;Li, Dongchu;Xu, Jiukai;Zhao, Bingqiang;Zhang, Lu;Zhang, Huimin;Zhou, Wei;Ai, Chao;Zhang, Liyu;Yuan, Liang;Wen, Yanchen;Zhang, Meiling;Huang, Shuyu;Wang, Shiyu;Zhao, Yuanzheng;Xu, Jiukai;Zhao, Bingqiang;Zhou, Wei;Ai, Chao;Hao, Xiangxiang;Li, Lujun;Gao, Qiang;Wang, Yin;Zhang, Shuiqing;Huang, Shaomin;Liu, Kailou;Yu, Xichu
关键词:functional traits; maize; microbiome; nutrient status; rhizosphere; soil types
-
Different biochemical composition and oxidation state of soil organic matter between upland and paddy fields
作者:Feng, Miao;Shang, Yuntao;Guo, Changcheng;Wang, Yidong;Feng, Miao;Wang, Yidong;Liu, Kailou;Lou, Yilai;Song, Zhaoliang;Gunina, Anna;Gunina, Anna
关键词:Analytical pyrolysis; Land use change; Lignin; Organo-mineral association; Py-GC/MS
-
Temporal and spatial characteristics of paddy soil potassium in China and its response to organic amendments: A systematic analysis
作者:Han, Tianfu;Huang, Jing;Khan, Muhammad Numan;Shen, Zhe;Li, Jiwen;Zhang, Huimin;Liu, Kailou;Huang, Jing;Zhang, Huimin;Zhang, Huimin
关键词:Organic amendment; Paddy soil potassium; Rice; China; Systematic analysis
-
Active microbial taxa preferentially assimilate inorganic nitrogen in acidic upland soils using a 15N-DNA-SIP approach
作者:Liu, Ran;Han, Cheng;Jiang, Yunbin;Zhang, Jinbo;Zhong, Wenhui;Han, Cheng;Zhong, Wenhui;Kang, Yu;Deng, Huan;Liu, Kailou
关键词:Inorganic nitrogen immobilization; Soil nitrogen retention; Organic nitrogen; Active microorganisms; 15 N isotope labeling
-
Optimizing potassium and nitrogen fertilizer strategies to mitigate greenhouse gas emissions in global agroecosystems
作者:Li, Jiwen;Shen, Zhe;Daba, Nano Alemu;Tadesse, Kiya Adare;Khan, Muhammad Numan;Shah, Asad;Wang, Zhufeng;Zhang, Huimin;Han, Tianfu;Liu, Kailou;Daba, Nano Alemu;Tadesse, Kiya Adare;Zhang, Huimin;Zhang, Huimin
关键词:Climate change; Fertilizer management optimization; Agroecosystems; Meta-analysis
-
Recalcitrant components accumulation in dissolved organic matter decreases microbial metabolic quotient of red soil under long-term manuring
作者:Yang, Xiao;Zhang, Shuai;Wu, Dong;Huang, Yaping;Zhang, Lu;Zhang, Wenju;Yang, Xiao;Guo, Shengli;Zhang, Lu;Liu, Kailou;Wu, Huiqiao
关键词:Chemodiversity; Manure amendment; Soil pH; Fluorescence spectroscopy
-
The divergent accumulation mechanisms of microbial necromass C in paddy soil under different long-term fertilization regimes
作者:Xiong, Li;Wang, Ping;Zhang, Wenxue;Wang, Shaoxian;Liu, Zengbing;Shao, Caihong;Sun, Gang;Xiong, Li;Wang, Ping;Zhang, Wenxue;Wang, Shaoxian;Liu, Zengbing;Shao, Caihong;Sun, Gang;Drosos, Marios;Scopa, Antonio;Jin, Wei;Liu, Kailou;Liu, Zengbing
关键词:Paddy soil; Microbial necromass; Long -term fertilization; Physical fractionation; Soil organic carbon
